6

Came across an interesting issue today started by my own typo. I created a lambda that takes in a reference to a struct and incorrectly set it to a std::function that receives it's argument by value.

Here's a more concise version:

#include <functional>

struct InputStruct
{
    int i;
    InputStruct(): i(1){}
};

void function_rcv(std::function<bool(InputStruct)> & func_ref)
{
    InputStruct in;
    func_ref(in);
}


int main()
{
    std::function<bool(InputStruct)> my_func = [](InputStruct & in)->bool{return in.i==1;};
    function_rcv(my_func);
}

Checking with godbolt shows this compiles successfully with MSVC, but fails for both Clang and GCC.

Interestingly enough, using a primitive instead of a struct fails compilation on all three compilers.

Is this a bug in the MSVC compiler?

14
  • 5
    Looks like a bug to me. Feb 20, 2019 at 20:19
  • @NathanOliver Fun stuff. I'll have to submit a bug to Microsoft when I get a chance.
    – mascoj
    Feb 20, 2019 at 20:26
  • 10
    It's just the usual "MSVC allows temporary to bind to lvalue reference". Compile with /Zc:referenceBinding and it won't compile.
    – geza
    Feb 20, 2019 at 20:31
  • 1
    @SergeyA I believe the note on constructor 5 has the reason (This constructor does not participate in overload resolution unless f is Callable for argument types Args... and return type R.). std::function<bool(InputStruct)> can take a rvalue, but [](InputStruct & in)->bool can't, so it should fail. Feb 20, 2019 at 20:38
  • 2
    @SergeyA If they are lvalues, sure. The problem is std::function's operator() is going to call INVOKE<R>(f, std::forward<Args>(args)...) for the underlying function object and if an rvalue is passed to operator() then the underlying function object will get an rvalue, which can't bind to an lvalue reference. Feb 20, 2019 at 21:02

1 Answer 1

6

In summary: it is not a compiler bug. MSVC accepts this code because of its default non-conforming behavior, but it can be made standard-conforming with a switch.

First of all, I need to clarify std::function's one aspect: it accepts a function (in general, Callable) which signature is not a perfect match, but the parameters can be converted. Consider:

using intFn = void (int);
void fn(short);

intFn *a = fn;               // doesn't compile
std::function<intFn> b = fn; // compiles!

Here, intFn a function type which has an int parameter, while the function fn has a short parameter. The simple function pointer a, cannot be set to point to fn, as the type of the parameter differ (int vs short). But, std::function allows this, so b can be set to point to fn.

In your example, std::function has an InputStruct parameter by value, while the lambda has a non-const lvalue reference InputStruct &. When std::function std::forwards its parameter, it becomes an xvalue, which cannot be bound to the lambda's lvalue reference parameter. That's why standard conforming compilers don't accept this code.

Why does MSVC accept this code? Because it has non-conforming behavior by default: it allows binding class temporaries (and xvalues) to non-const lvalue references. You can disable this behavior with /Zc:referenceBinding (or the older /Za option). If you use this switch, MSVC rejects your example.

1
  • Well put. Thank you for the full breakdown.
    – mascoj
    Feb 21, 2019 at 17:33

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